Parallel all-optical logic operations based on metasurface polarization optics

Jing Wang; Wenli Wang; Yang Lu; Qun Hao; Liandong Yu

doi:10.3788/COL202321.101602

Parallel all-optical logic operations based on metasurface polarization optics

Jing Wang, Wenli Wang, Yang Lu, Qun Hao, Liandong Yu^*

^*Corresponding author for this work

School of Optics and Photonics

Research output: Contribution to journal › Article › peer-review

1 Citation (Scopus)

Abstract

We developed a general framework for parallel all-optical logic operations with independent phase control of arbitrary orthogonal polarization state enabled by a single-layer metasurface. A pair of orthogonal circular polarized bases are used as two input channels of the logic operator, and their four combinations perfectly match various binary input states. Correspondingly, distinct phase profiles are encoded into the metasurface, which enables parallel operation of the two logic gates by way of polarization switching. It allows for an efficient and compact way to implement multi-channel multiplexed logic gate operations with the capability of fast optical computing at the chip scale.

Original language	English
Article number	101602
Journal	Chinese Optics Letters
Volume	21
Issue number	10
DOIs	https://doi.org/10.3788/COL202321.101602
Publication status	Published - 10 Oct 2023

Keywords

metasurface
parallel all-optical logic operation
polarization

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10.3788/COL202321.101602

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abstract = "We developed a general framework for parallel all-optical logic operations with independent phase control of arbitrary orthogonal polarization state enabled by a single-layer metasurface. A pair of orthogonal circular polarized bases are used as two input channels of the logic operator, and their four combinations perfectly match various binary input states. Correspondingly, distinct phase profiles are encoded into the metasurface, which enables parallel operation of the two logic gates by way of polarization switching. It allows for an efficient and compact way to implement multi-channel multiplexed logic gate operations with the capability of fast optical computing at the chip scale.",

keywords = "metasurface, parallel all-optical logic operation, polarization",

author = "Jing Wang and Wenli Wang and Yang Lu and Qun Hao and Liandong Yu",

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AU - Wang, Jing

AU - Wang, Wenli

AU - Lu, Yang

AU - Hao, Qun

AU - Yu, Liandong

PY - 2023/10/10

Y1 - 2023/10/10

N2 - We developed a general framework for parallel all-optical logic operations with independent phase control of arbitrary orthogonal polarization state enabled by a single-layer metasurface. A pair of orthogonal circular polarized bases are used as two input channels of the logic operator, and their four combinations perfectly match various binary input states. Correspondingly, distinct phase profiles are encoded into the metasurface, which enables parallel operation of the two logic gates by way of polarization switching. It allows for an efficient and compact way to implement multi-channel multiplexed logic gate operations with the capability of fast optical computing at the chip scale.

AB - We developed a general framework for parallel all-optical logic operations with independent phase control of arbitrary orthogonal polarization state enabled by a single-layer metasurface. A pair of orthogonal circular polarized bases are used as two input channels of the logic operator, and their four combinations perfectly match various binary input states. Correspondingly, distinct phase profiles are encoded into the metasurface, which enables parallel operation of the two logic gates by way of polarization switching. It allows for an efficient and compact way to implement multi-channel multiplexed logic gate operations with the capability of fast optical computing at the chip scale.

KW - metasurface

KW - parallel all-optical logic operation

KW - polarization

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Parallel all-optical logic operations based on metasurface polarization optics

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Keywords

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